Circuit breaker



May 6, 1941. 'r. LINDSTROM CIRCUIT BREAKER Filed July 51, 1937 6 Sheets-Sheet 1 muuuuuu I INVENTOR 75/(Zn7d51fam. BYR/ Z ATTORNQ /37 A47 if y May 6, 1941. T. LINDSTROM 2,240,656

' CIRCUIT BREAKER Filed July 31, 1957 6 Sheets-Sheet 2 [725 Mario/2 37 4, 7 /Fj J3 b WITNESSES: INVENTOR E wzwfiw.

May 6, 1941. T. LINDSTROM 2,240,656

CIRCUIT BREAKER Filed July 31, 1937 6 Sheets-Sheet 3 T. LINDSTROM CIRCUI T BREAKER s Sheets-Sheet 4 Filed July 31, 1937 lira/0255a v INVENTCR 27/2 1 l/Zd/i/fiD/YZ.

ATTORNEY May 1941. T. LENDSTROM' 2,240,656

CIRCUIT BREAKER Filed Julyfil, 1937 6 Sheets-Sheet 5 WITNESSES: INVENTOR BY. v

Patented May 6, 1941 cmcm'r BREAKER Ture Lindstrom, Edgewood, Pa., assignor to Westinghouse Electric & Manufacturing Company, East Pittsburgh, Pa.,'a corporation of Pennsyl- Vania Application July 31, 1937, Serial No. 156,743

19 Claims.

( The invention relates to circuit controlling devices in general and more particularly to the type of circuit breaker used for controlling and protecting relatively low voltage alternatingcurrent network distribution circuits.

The present invention constitutes a further a manhole or underground vault. Due to the.

limited amount of space economically available in installations of this kind, the breaker or protector should be extremely compact in design and the contact structure and operating means thereof should be so constructed as to be readily accessible for repair and inspection purposes.

An object of the invention is the provision of a circuit breaker embodying an improved actuating mechanism and closing means therefor.

Another object of the invention is the provision of a circuit breaker embodying an actuating mechanism and closing means which cooperate to provide a large mechanical advantage as the breaker approaches closed position.

Another object of the invention is the provision of a circuit breaker embodying an improved motor-driven closing means which provides a wide range or are of rotation in which the closing means and motor may be stopped following closing of the breaker.

Another object of the invention is the provision of a circuit breaker embodying an improved actuating and tripping means with a simplified resetting means for resetting the actuating and tripping means following a tripping operation.

Another object of the invention is the provision of a circuit breaker with an improved tripping means embodying an electromagnetic shunt trip unit which can be readily removed and reinstalled without disturbing any conductors of the shunt trip control circuit.

The novel features that are considered characteristic of the invention are set forth in particular in the appended claims. The invention itself, however, both as to structure and operation, together with additional objects and advantages thereof, will best be understood from the following detailed description of several embodiments thereof when read in connection with the accompanying drawings, in which:

Figure 1 is a front view partly in elevation and partly in section of the operating mechanism of the circuit breaker embodying the features of the invention, a portion of the cover for the auxiliary switch panel being broken away;

Fig. 2 is a fragmentary side elevational view of the auxiliary switch means;

Fig. 3 is a perspective view of the circuit breaker illustrating the hingedly mounted operating means in the open or inoperative position;

Fig. 4 is a fragmentary front elevational view of contact means of the circuit breaker;

Fig. 5 is a side elevational View, partly in sec tion, of the contact means and operating means in the closed circuit position of the breaker;

Fig. 6 is a sectional view of the actuating toggle taken on the line VI-VI of Fig. 5;

Fig. 7 is a fragmentary side elevational view, partly in section, of the contact means and operating means in the open circuit position of the breaker;

Fig. 8 is a fragmentary front elevational view, partly in section, of the breaker, illustrating the mounting of the shunt trip and motor units on the frame;

Fig. 9 is a fragmentary bottom view illustrating the mounting of the shunt trip and motor units on the frame.

Fig. 10 is a fragmentary view, partly in elevation and partly in section, illustrating the motordriven closing means, the view being taken substantially on the line ill-I0 of Fig. 11;

Fig. 11 is a fragmentary view, partly in section, of the motor-driven closing means taken on the line lI-Il of Fig. 10 with the motor removed;

Fig. 12 is a front elevational view of a modified form of auxiliary switch means for use in connection with the circuit breaker;

Fig. 13 is a side elevational view of the auxiliary switch means shown in Fig. 12;

Fig. 14 is a sectional view of the resilient coupling link which couples theauxiliary switch means shown in Figs. 12 and 13 with the circuit breaker actuating means;

Fig. 15 is a side elevational view of a part of the coupling means; and

Fig. 16 is an end elevational view of the part of the coupling means shown in Fig. 15.

Referring to the drawings and particularly to Figs. 1 through 6 thereof, the circuit breaker illustrated which embodies the features of the invention is mounted on an insulating base IS. The base is provided with horizontally disposed rollers I! on each side to facilitate positioning and removal of the circuit breaker in its weatherproof housing (not shown), the rollers being adapted to roll on suitable guides disposed in the weatherproof housing.

The circuit breaker illustrated is of the three pole type and has three contact assemblages, one for each pole, mounted on the base II and separated by insulating barriers ii. The contact assemblage for each pole of the circuit breaker comprises three triangularly spaced main stationary contacts 2|, and a stationary arcing contact 23 disposed vertically above the apex of the triangularly arranged main contacts. The stationary main and arcing contacts 2| and 21 are secured to a current-carrying bus 25 which is in turn secured to the base it.

The three triangularly spaced movable main contacts 22 for each pole of the breaker which cooperate with the three main stationary contacts 2| are secured to individual contact carrying members 21 which are in turn all supported by a clamp 28. Each contact carrying member is pivotally secured to one end of an eye bolt 3|, the opposite end of which extends through an opening provided therefor in the clamp 28. The movable arcing contact 24 which cooperates with the stationary arcing contact 23 is secured to the upper end of a contact carrying member 22 which is pivoted at its lower end to depending proJection 35 of the clamp 29 by a pivot pin 21. The movable contacts of each pole are thus supported by their corresponding clamps 29, there being one clamp for each of the three poles of the breaker. The movable contacts and their supporting clamps are all secured for simultaneous movement together by means of two horizontally disposed parallel tie bars 38 which extend across the three poles of the breaker, the clamps 29 for the outer poles being clamped to the tie bars 39 by means of cooperating clamps 28 and bolts 20. The clamp 28 for the center pole is secured to the tie bars 39 and to the upper end of a common contact lever 4| which is in turn pivotally mounted at its lower end to a center pole current carrying bus 42 by a pivot pin 43. The upper end of the lever 4| is provided with a C shaped clamping recess 45 which cooperates with the center clamp 29 to engage the tie bars 38, the center clamp 29 and the upper end of the lever ll being firmly clamped to the bars I! by means of a bolt 30. Each contact carrying member 21 is connected with its corresponding current carrying bus 42 by means of a flexible laminated shunt conductor 44. The eyebolts 2| to which the contact carrying members 21 are pivotally connected extend through the clamps 28 and 28 in the case of the outer poles and through the center clamp 28 and the upper end of the common contact lever 4| in the case of the center pole. The upper ends of the eyebolts 2| are provided with adjusting nuts 1 for limiting movement of the contact carrying members 21 away from the clamps 29. The contact carrying members 21 are biased away from their supporting clamps 29 toward the stationary contacts 2i by means of compression springs 49 interposed between the contact carrying members 21 and the clamps 28 in the case of the outer poles, and between the contact carrying members 21 and the C shaped clamping recess 45 in the case of the center pole. The springs 49 encircle their corresponding eyebolts 3|. The arcing contact carrying members 33 are likewise biased toward their corresponding stationary arcing contacts 2| by means of compression springs II which encircle the upper main contact biasing springs ll.

The oounter-clockwise movement of the arcing contact carrying members 33 about their pivot axes 31 under the influence of the springs Ii is limited by lateral projections formed on the memhere 32 which engage the upper main movable contact carrying members 21 in the open position of the breaker.

In breakers of this type heavy currents are conducted and it sometimes happens that the contacts become welded together. In order to positively break apart the contacts during a switching operation, each of the contact carrying members 21 is provided with a tail piece 53 which is adapted to be engaged by the pivot pin 21 carried by the clamp 28 so that when the breaker is opened considerable leverage is exerted on the tail piece =52 to rock the current carrying memhere 21 and break apart the welded contacts.

In order to insulate thecontact means of each pole of the breaker from each other the tie bars 3! are covered by insulating sheaths II. The arcing contacts are arranged to engage before the main contacts during a circuit closing operation and to separate last during a circuit opening operation so that all arcing takes place at the arcing contacts. Any suitable type of are extinguishing means may be provided for quickly extinguishing the arcs formed during circuit interruption.

From the preceding description it will be observed that the movable contacts of all of the poles of the breaker are secured for simultaneous movement together with the common contact lever 4|. The contact lever II is biased in a clockwise direction about its pivot axis 43 to the open circuit position by means 01' a pair of accelerating springs 51 (Fig. 3) which are connected at their upper ends to the lever 4| and at their lower end to the center current carrying bus 42 The contact lever 41 is provided with a bearing plate 52 for engagement by a roller of the actuating mechanism which will be hereinafter described.

The operating mechanism fer the breaker is supported by a framework 1| having an upper hinge member 13 (Fig. 3) and a lower hinge member 15 (Fig, 5) adapted to be hinged respectively to corresponding hinge members 11 and 19 carried by a bracket 81 secured to the base ii. The side of the frame 1| opposite the hinge members 13 and 15, is provided with a boss l! having an aperture therethrough for the reception of a stud bolt 85. The boss 83 is adapted to engage a boss 81 secured to a bracket 88 supported on the insulating base I5. The boss I1 has a threaded aperture for receiving the stud bolt 85, whereby the frame 1i may be secured in operative position with respect to the contact lever H.

The operating mechanism supported within the framework 1| includes an actuating means consisting of a yoke-shaped switch member 8| (Fig. 3) pivoted at its lower end to suitable projections 93 formed on the frame 1|. The upper ends of the two arms of the switch member 9| are pivotally coupled to one end of a pair of 'toggle links 95 (Figs. 5 and 7) by means of a shaft 81. The shaft 81 carries a roller 99 disposed between the toggle links 85, which roller is adapted to engage the bearing plate 83 secured to the face of the contact lever II. The other end of the toggle links 95 is pivotally connected to one end of a second pair of toggle links IOI by means of a knee pivot pin iii. The outer end of the pair of toggle links IN is pivotally connected by pivot pin I to a single movable link or support member I01, which is pivoted by means of a pin I09 to the frame 1I.

The linkage members 95, IOI and I01 provide a three-link toggle mechanism which when in the made or overset position is retained in that position by a positive latching mechanism comprising a curved latch member III pivoted to the frame H at H3. The latch member III is provided with a U-shaped latch recess II5 (Figs.

5 and '1) for receiving a. latch roller II1 carried by the movable support I01. The latch member II I is adapted to be held in the latched position, as shown in Fig. 5, by means of a latch toggle comprising a pair of toggle links H9 and I2I pivotally joined together by a knee pivot pin I23. The link H9 is pivotally connected to a projection I25 formed on the latch member III, while the link I2I is pivotally supported on the frame H by means of a fixed pivot pin I21.

The knee of the toggle linkage II9, I2I is adapted to rest in its overset or made position against a stop I29 carried by a trip lever I3I which is pivotally mounted on the frame H by the pivot pin I21. The trip lever I3I has a bearing surface I33 against which the operating plunger I35 of a shunt trip unit I31 is adapted to strike for the purpose of rocking the trip lever l3I about its pivot I21 to collapse the latch toggle II9, I2I.

After each tripping operation, the latch member III and the latch toggle II9, I2I are reset automatically by means of a spring I39 connected at one end to a projection carried by the latch member I II and at its other end to a projection carried by the latch toggle link Ill. The spring I39 biases the latch toggle to its overset or made position, as shown in Fig. 5, and also biases the latch member III to its latching position when the latch member is in its released position. The line of action of the spring I39 is so disposed relative to the pivot axis II3 of the latch member III that it does not bias the latch beyond normal latching position. When the latching member I I I is in the latched position and locked due to the latch toggle being in the overset position, and the actuating linkage 95, IN, I01 is in the overset or made position, the pivot points I03 and I05 are over-center, respectively, with respect to the line joining the pivot points 91 and I05 and the line joining the pivots I03 and I09. Inasmuch as the knee of the toggle formed by the links 95 and IM have a bearing surface against the frame H at HI, and since the support member I01 is held in the latched position by the latching member III, the force exerted by the contact springs 49, 5I and 51 acting through the contact lever 4 I which bears against the roller 99, biases the pivoted support member I01 in a clockwise direction about its pivot pin I09. The tendency for the member I01 to rotate in a clockwise direction is opposed by the roller II1 engaging the left-hand edge of the latch recess H5.

The point of contact of the latch roller II1 at the left-hand edge of the latch recess is such that there is a small moment arm about the pivot axis II3 of the latch member III which tends to rotate the latch member I I I in a counterclockwise direction toward its released position. The latch III, however, is held in its latched position against this biasing moment arm by reason of the latch toggle II9I2I being in its overset or made position. Thus when it is desired to trip the breaker open, through means upwardly to engage the bearing surface I33 and rock the trip lever I3I in a clockwise direction about its pivot axis I21. The clockwise movement of the trip lever I3I causes its bearing surgle linkage 95, Nil.

face I29 to move the knee I23 of the latch toggle to move the latch toggle to collapsed position. The collapse of the latch toggle allows the latch member III to be rotated in a counter-clockwise direction about its pivot axis I I 3 to released position, thereby releasing the latch roller II1. The release of the latch roller II1 frees the support member I01 and allows the same to rotate in a clockwise direction about its pivot axis I09, so that the pivot pin I05 is carried upwardly and to the right. This movement of the pivot pin I05 causes the line joining the pivot axes 91 and I05 to be moved above the knee pivot pin I03 so as to break the actuating toggle. As soon as the pivoted support I01 begins its clockwise rotation about its pivot axis I09, the yoke-shaped switch member 9| is rocked in a clockwise direction to its open circuit position permitting movement of the contact lever 4I towards the open circuit position to simultaneously effect opening of all of the contact means of the breaker. During the opening of the contact means, it will be understood that the arcing contacts of the several poles are the last to separate. The opening movement of the contact lever H is accelerated by the accelerating opening springs 51 and by the almost simultaneous collapse of the actuating tog- As soon as the actuating toggle is released, as described above, and the tripping force is removed from the trip lever I3I, the spring I39 restores the latch toggle II9, I2I to made position, while the force of gravity acting on the right-hand end of the actuating toggle and pivoted support I01 returns the pivoted support I01 to its normal or latched position. The latching roller I I1 of the pivoted support I01 drops into the U-shaped latch recess H5. The breaker is now completely reset and ready for a closing operation. It will be noted that a single spring means I39 acts to reset the latch toggle, and returns the latch to the position in which it holds the right-hand end of the actuating toggle in operative position. The point of connection of the spring I39 with the latch I I I is so disposed relative to the pivot pin II3 that the moment arm of the spring is a maximum when the latch is in its released position and is substantially zero when the latch is in its latching position.

Two means are provided for closing the circuit breaker, a motor closing mechanism and a manually operable mechanism. The motor closing mechansm, which is automatically operable, comprises a rotatable crank arm I43 for engaging a closing lever I45 connected to the actuating toggle 95IOI of the actuating means, and a removable motor unit I41, including a motor for rotating the crank arm I43. The crank arm I43 is secured for rotation to a crank shaft I49 (Figs. 10 and 11) which is rotatably mounted in the frame 1|. The crank shaft I49 has a worm gear I5I secured thereto which meshes with and is adapted to be driven by a worm I53 secured to a shaft I55 which is rotatably mounted in the frame 1I. One end of the shaft I55 terminates adjacent the edge of the frame H and is provided with a notched recess I51 for receiving a tongue I59 formed on the end of the motor shaft IGI. The notched recess I51 of the shaft I55 and the tongue I59 formed on the end of the motor shaft IOI form a separable connection between the motor shaft and the worm shaft, which permits the motor unit I41 to be removably mounted, as will be hereinafter described.

The crank arm I43 is provided with a closing roller I83 pivotally mounted on the end of the crank arm by means of a stub shaft I55. The closing roller I93 is adapted to engage an armate recess I51 formed on the lower free end of the closing lever I45. The upper end of the closing lever I45 is pivotally connected to the knee pivot pin I03 of the actuating toggle 95, I01. The lower free end of the closing lever N5 is provided with a boss or guide stud I59 adapted for engagement in an arcuate guide slot I1I formed in a guide plate I13 secured to the side of the gear casing I15 which is formed integral with the frame H.

The operation of the motor closing means is briefly as follows: When the circuit to the motor is energized for a closing operation, the rotation of the motor shaft IGI is transmitted through the worm I53 and worm gear I5I to the crank shaft I49, causing rotation of the crank arm I43. Soon after starting to rotate, the crank arm I43 engages the closing roller I63 in the arcuate recess I51 of the closing lever I45 and moves the closing lever upwardly to drive the actuating toggle comprising the links 05 and IOI to its made or overset position, the right-hand end of the actuating toggle being held in fixed or operative position by reason of the pivoted support I01 which is held in its latched position by the latch member III. As soon as the actuating toggle 95, IIII has passed over center toward its overset position, the closing roller I53 passes out of engagement with the closing lever I45. It will be noted that the crank arm ongages and moves the closing lever I 45 to closed circuit position during only a relatively small arc of the travel circle of the crank arm I43. This is a particularly desirable arrangement, since it leaves a wide range or arc of movement in which the crank arm I43 and motor is to be stopped; thus eliminating the necessity of extremely accurate braking means for the motor.

It will be readily understood that movement of the actuating toggle 95, MI to its overset or made position causes the roller 99 to engage the bearing plate 63 and move the contact lever 4| to its closed circuit position to effect simultaneous closing of the contact means for all of the poles of the breaker.

When the actuating toggle 95, MI is moved to its overset or made position by the motor closing mechanism, the links IOI engage and move an operating plunger I11, which in turn engages and moves a lever I19 of a cut-off switch connected in a control circuit of the motor I83. Thus when the actuating toggle is moved to the overset or made position, the cut-oil switch is thrown to the oiT' position, thereby deenergiz ing the motor circuit.

The motor I33 is provided with a brake mechaniam indicated generally at I85 (Fig. 5) which may be of a centrifugal or other suitable type. One suitable form of brake means which may be used is disclosed in detail in the copending application of Pure Lindstrom, Serial No. 59.387, flied Jan. 16, 1936, and assigned to the assignee of this invention, which application became Patent No. 2,192,046 on February 27, 1940. Another suitable form of brake means which might equally well be used is disclosed in detail in the copending application of Floyd D. Johnson, Serial No. 76,165, filed April 24, 1936, and also f assigned to the assignee of this invention, which application became Patent No. 2,175,897 on October 10, 1939. The brake mechanism is adapted to stop the crank arm I43 and motor shaft following a closing operation.

The manual means for closing the circuit breaker comprises a shaft I 91 (Figs. 3 and 5) rotatably mounted in the bracket II, and a second bracket secured to the insulating base iii. The shaft I81 has a crank arm I89 secured thereto provided with a roller I90, which is adapted to engage an arcuate recess I9I formed in the free end of a manually operable closing lever I93. The upper end oi the manual closing lever I93 is pivotally connected to the knee pivot pin I03 oi the actuating toggle 95, I01, and the lever I93 is biased to roller engaging position by a spring I95.

The outer end of the manually operable closing shaft I81 is provided with a male clutch member I91 adapted to be engaged by a suitable female clutch member forming part oi an operating handle (not shown) whereby the shaft I81 may :be rocked in a counter-clockwise direction to effect a manual closing operation of the circuit breaker. When the shaft I51 is manually rotated in a counter-clockwise direction, the closing roller I90 engages the arcuate recess formed at the lower free end of the manually closing lever I93 and moves the closing lever upwardly to drive the actuating toggle 95, MI to its overset or made position to eii'ect closing of the circuit breaker in the manner previously described. The crank arm I89 is also provided with a projection I99 which is adapted to be moved into engagement with one end of an auxiliary trip lever 20I (Figs. 5 and 7) when the arm is rotated in a clockwise direction. The auxiliary trip lever 20! is pivoted at 203 on a bracket secured to the trip unit I31. The opposite end oi the auxiliary trip lever terminates in a bearing surface 205 which forms a stop for the bearing surface I33 of the trip lever III. An adjusting screw 201, carried by the bracket which supports the auxiliary trip lever 20], provides an adjustable stop surface for adjusting the position of the auxiliary trip lever 20!, the main trip lever I31, and consequently the toggle position of the latch toggle H9, Hi. The breaker may be manually tripped open by rotating the shaft I81 in a clockwise direction; that is to say, in the opposite direction in which it is moved for closing the breaker.

In order to prevent the opening of the hinged frame 1| or, in other words, to keep from swinging the operating mechanism to the inoperative position at times when the breaker contacts are in the closed position, an interlock between the trip mechanism and the securing means for holding the frame H in the fixed position is provided, This interlock consists of a covering member 200 (Fig. 3) pivoted at 2 to the bracket 89. The covering member 209 has a transverse portion which normally extends in covered relation over the head of the fastening bolt 55 which retains the frame 1i in closed operative position. The covering member is connected by a link 2I3 to a crank 2I5 secured to the manual operating shaft 181. The crank 2|! is so positioned with respect to the crank I03 that the covering member 209 permits access to the bolt 35 only when the projection I00 01' the crank I59 has moved the auxiliary trip lever 20I to trip the breaker. Thus in order to swing the frame 1I away from the base I5, it becomes necessary to first operate the manual control shaft I91 to the tripped position to trip the contacts open.

After the breaker has been tripped by rotating the shaft I81 in a clockwise direction, the bolt 35 may be removed and the frame H, which carries the operating mechanism, may be swung to the open position as shown in Fig. 3, thus permitting ready access to the contact mechanism for inspection or repair.

In order to facilitate inspection, replacement or repair of the shunt trip unit without disassembling the breaker, the shunt trip unit I31 is removably mounted on the frame 1|. Referring to Figs. 8 and 9, the shunt trip unit I31 is mounted by means of a pair of mounting bolts 2I1, which extend through openings provided therefor in a mounting plate 2I9 carried by the trip unit. The bolts 2" are adapted to engage threaded openings provided therefor in the frame H of the operating mechanism. In order to automatically connect the shunt trip coil carried by the shunt trip unit I31 in its control circuit when the unit is mounted on the frame 1I, there is provided a separable electrical connecting means 22!. The separable connecting means consist of a female contact socket 223 secured to the frame "II having a pair of spaced contacts 225, and a cooperating contact plug 221 secured to the mounting plate 2I9 of the shunt trip unit, which has a pair of male contact members 229 adapted to engage the female contact members 225 carried by the socket 223. A pair of conductor wires 23I connect the male contact members 229 to the ends of the shunt trip coil carried by the shunt trip unit I31. It will thus be seen that the shunt trip unit I31 can be readily removed and reinstalled without disturbing any conductor wires. and that it is automatically connected in its control circuit when mounted on the frame 1!. When the shunt trip unit is removed the latch toggle collapses and trips the breaker open due to the fact that the stop for the latch toggle and trip lever I3I is removed with the trip unit.

The motor unit I41 is also removably mounted on the frame H by means of a pair of mounting bolts 233 (Figs. 8 and 9) which pass through o enings provided therefor in a mounting plate" 235 carried by the motor unit. The mounting bolts 233 are adapted to engage suitable threaded openin s provided therefor in the frame 1I. When the motor unit I41 is mounted in position on the frame 1 i, the tongue i59 on the projecting end of the motor shaft I 6| engages the notch I51 provided at the end of the worm shaft I55, so that the motor shaft ii and the worm shaft are disposed in driving engagement. A separable electrical connecting means 231 (Figs. 8 and 9) is provided for automatically connecting the motor in its control circuit when the motor is mounted on the frame II. This separable connecting means is substantially similar to the separable electrical connecting means for the shunt trip unit and comprises a pair of spaced contact members carried by a female terminal socket 238 secured to the frame 1| and a pair of 00- operating spaced male contact members carried by a plug connector 240 secured to the mounting plate 235 of the motor unit I41. Thus the motor is adapted to be automatically connected in its control circuit when the motor unit is mounted in operative position on the supporting frame H,

and the motor unit may be readily removed without disturbing any conductor wires.

Referring to Figs. 1 and 3, the frame 1| is pro vided with a panel 239 which is adapted to be rigidly secured to the frame and to be movable therewith. Suitable relays indicated generally at 2, 243 and 245 may be mounted on the panel 239 for controlling the various switching operations. The relays are adapted to receive energy from suitable current transformers 242 which encircle the busses 42.

The panel 239 is also utilized for mounting auxiliary control switches indicated generally at 241 (Fig. 1). The switches 241 in this instance are actuated by an operating rod 249 connected to a bell-crank lever 25I (Fig. '1) pivoted at 252 on the frame 1I. One arm of the bell-crank lever 25I is connected by an actuating link 253 to the switching member 9I, the other arm of the bell-crank lever being pivotally connected to the operating rod, 249. It will be apparent that when the switch mem' ber 9I is moved to the open circuit position, the connecting link 253 will rock the bell-crank lever in a clockwise direction about its pivot 252, causing the operating rod 249 to actuate the auxiliary switch means 241. The operating rod 249 is also coupled by a suitable link 255 to a signal semaphore 251 pivoted to the base of the auxiliary switch means. The semaphore 251 is provided with colored signal lenses 259 adapted to be moved respectively in front of an indicating lamp 23L Thus the lamp in projecting light through the colored signal lenses 259 will indi- 4 cate the open and closed positions of the breaker in accordance with a predetermined color code.

Referring to Figs. 12, 13 and 14, a modified form of auxiliary switch means is shown for use in connection with the circuit breaker. In this embodiment, the auxiliary switch means indicated generally at 263 comprises a plurality of snap-acting toggle switches 265 of any suitable type embodying an overcenter spring actuating mechanism and an operating lever movable through a dead-center position to open and closed circuit positions. The auxiliary switches 265 are mounted on an insulating base 261 which is adapted to be secured to the frame H by means of mounting screws 269. The operating levers of the auxiliary switches are secured for movement together by means of a U-shaped operating member 21I, which is pivoted on the base 261 by means of a pair of pivot studs 213. The U-shaped operating member 21I is coupled to the operating rod 249 by a resilient coupling means indicated generally at 215 and is adapted to be rocked about its pivot axis by movement of the operating rod 249 which is actuated in conjunction with the opening and closing movement of the breaker, the rocking movement of the U-shaped operating member to one extreme position or the other effecting simultaneous op- -eration of the auxiliary switches to their open or closed circuit positions.

The resilient coupling means 215 comprises a tubular member 211 and a member 219 which are disposed for limited axial telescopic movement relative to one another. The tubular member 211 is provided with an end closure cap 28I adapted to be threaded on the end of the tubular member 211, and the cap is provided with an opening 283 for receiving a reduced portion 285 of the member 219. The member 219 is provided with a further reduced portion 281 which is cy lindrical in cross-section. The cylindrical portion ill extends within the bore ill drilled in the tubular member ill. The reduced portion ill of the member ill forms a shoulder ill, which is adapted to engage the end of the cap ill to limit inward movement of the member ill relative to the tubular member ill, while the junction of the further reduced portion ill and the reduced portion ill provides a shoulder ili forming a bearing surface on the member ill. The tubular member ill is provided with a second reduced bore ill which Joins the bore ill. The Junction of the bores ill and ill forms an annular shoulder ill providing a bearing surface for the member ill. A pair of annular bushing members ill and ill are slidabiy mounted on the cylindrical reduced portion ill of the member ill. The slidably mounted bushings ill and ill act to center the cylindrical portion ill of the member ill and guide the same in its telescopic movement within the bore ill. A collar ili is secured to the end of the cylindrical portion ill of the member ill by means of a rivet. A compression spring ill is disposed in stressed condition between the slidable bushings ill and ill. The stressed compression spring ill biases the bushing ill against the shoulder or bearing surface ill of the tubular member ill, and the bushing ill against the cap ill, and shoulder or bearing surface ill of the member ill.

when the member ill is connected to a load which resists movement of said member, and the member ill is moved to the left, the movement is transmitted through the bearing surface or shoulder ill to the slidable bushing ill and the compression spring ill to the bushing ill, which is seated against the bearing portion or shoulder ill of the tubular member ill. If the load applied to the tubular member ill is greater than the reactive force of the stressed compression spring ill, the spring will be further compressed as the member ill moves axially to the left relative to the member ill. when the spring ill has been compressed to such an extent that its reactive force equals the load applied to the tubular member ill, further movement of the member ill will be transmitted through the spring ill, bushing ill, and shoulder or bearing portion ill to eifect movement of the member ill to the left. In other words, the spring ill is compressed until its reactive force equals the load on the tubular member ill. and further movement of the member ill is then transmitted through the spring to the tubular member ill by the engagement of the bushing ill with the bearing surface ill. Similarly. when a load is connected to the tubular member ill which resists movement of the same to the right. and the member ill is moved toward the right, the member ill is moved axially to the ri ht relative to the member 211. This relative axial movement of the member ill acts to further compress the spring ill by reason of the fact that the collar ili, which moves with the member ill. carries the bushing ill in a right-hand direction to further compress the spring ill. when the spring ill has been compressed to the point at which its reactive force equals the resisting force of the load applied to the tubular member ill, the further movement of the member ill is transmitted through the spring ill, bushing ill and cap ill to the tubular member ill, so that the member ill is moved along with the member ill. It will thus be seen that the spring ill is always worked in compresaion regardless of the direction in which the member ill is moved.

The tubular member ill is provided with a recess ill for receiving an extension ill of the U-shaped auxiliary switch operating member ill. The extending end portion ill is pivotally connected to the tubular member ill by means of a pivot pin ill which passes through a transverse circular opening ill formed in the recessed end of the tubular member ill and an opening provided in the extending end portion ill of the switch operating member ill. The end of the member ill of the resilient coupling means ill is connected to the operating rod ill of the circuit breaker.

Referring to Fig. 12, the operation of the auxiliary switch means in conjunction with the circuit breaker is briefly as follows: In Fig. 12, the auxiliary switch operating member ill is shown in one of its operative positions, the operating rod ill and the breaker being in the closed circuit position. When the circuit breaker is tripped open, either manually or by the electromagnetic shunt trip Ill as previously described, the crank arm ill (Fig. 5) is moved in a clockwise direction about its pivot axis ill to cause upward movement of the operating rod ill. The load of the auxiliary switch means ili, which is connechdby means of the switch operating member illto the tubular member ill of the flexible coupling means ill, is of such magnitude as to prevent movement of the tubular member ill during the initial opening movement of the breaker. During this initial opening movement, the upward movement of the rod ill further compresses the spring ill, the tubular member ill remaining stationary. when the spring ill has been compressed by the upward movement of the operating rod ill to the point at which its reactive force equals the load imposed on the tubular member ill by the auxiliary switch means, or until the members ill and ill reach their inward limit of movement, further upward movement of the operating rod ill is transmitted through the spring ill to the tubular member ill, causing upward movement of that member and counter-clockwsie rocking movement of the auxiliary switch operating member ill. When the operating levers of the auxiliary switches ill approach their dead-center position when moved by the rocking movement of the auxiliary switch operating member ill, the force required to operate the auxiliary switches decreases, thus decreasing the load imposed on the tubular member ill of the coupling means. The load imposed on the tubular member ill as the auxiliary switch levers approach dead-center position is considerably less than the reactive force of the compression spring ill, so that the compression spring ill at this point expands and moves the tubular member ill relative to the member ill and operst ng rod ill, to cause the switch operating lever ill to throw the operating levers of the auxiliary switches ill through their dead-center position to operate the auxiliary switches. The resilient coupling means thus acts somewhat in the manher of an accelerating spring in operating the auxiliary switches. The auxiliary switches are arranged to be operated the moment the arcing contacts ii, ii of the breaker engage or separate during operation of the breaker.

when the circuit breaker is closed, either manually or automatically, the bell-crank lever ill is rotated in a counter-clockwise direction lbout its pivot pin ill to cause downward movement of the operating rod 249. During the initial portion of the downward movement of the operating rod 2&9, the compression spring 305 of the coupling means 215 is further compressed, the tubular member 211 thereof remaining stationary because of the load imposed thereon by the auxiliary switches. When the reactive force of the spring 305 equals the load imposed on the member 211 by the auxiliary switch means, further downward movement of the operating rod 249 is transmitted through the spring 305 and the tubular member 211 to effect downward movement of said member. Downward movement or the member 211 rocks the auxiliary switch operating member 21l in a clockwise direction about its pivot axis 213 to simultaneously move the operating levers of the auxiliary switches 265. When the operating levers of the auxiliary switches approach dead-center position, the force required to operate them decreases and the compression spring 305 expands, due to the fact that its reactive force is greater than the load imposed on the tubular member 211, and moves the member 211 downwardly relative to the member 219 to throw the auxiliary switch operating levers through their dead-center position to operate the auxiliary switches. The auxiliary switches 265 are arranged to be operated the moment the arcing contacts 23 and 24 of the breaker engag during a breaker closing operation.

One of the auxiliary switches 265 is connected in the control circuit of the electromagnetic shunt trip I31 and arranged to close the moment the arcing contacts of the breaker engage during a circuit closing operation, so that the shunt trip I31 is always ready to operate the moment the arcing contacts engage.

The resilient coupling means 215 also functions to permit over-travel of the operating rod 249 relative to the auxiliary switch operating member 21l, so that the operating rod 249 can continue to move after the auxiliary switches have reached either of their operative limiting positions.

While the invention has been disclosed in accordance with the patent statutes, it is to be understood that various changes in the structural details thereof may be made without departing from the spirit of the invention. It is desired, therefore, that the appended claims be given the broadest reasonable construction permissible in the light of the prior art.

I claim as my invention:

1. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle engageable at one end with said switch member, releasable means normally restraining the other end of said toggle in an operative position, a closing lever for moving the knee of said toggle to close said switch member, said lever being provided with a roller engaging surface, a rotatable crank arm provided with a roller adjacent its free end, said crank arm being operable to cause said roller to engage said surface and move said closing lever during a relatively small portion of its travel circle to effect closing of said switch member and to then cause said roller to pass out of engagement with said closing lever, motor means for operating said crank to close said switch F member, and means for automatically stopping said crank following its disengagement from said closing lever.

2. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle engageable at one end with said switch member, releasable means for normally restraining the other end of said toggle in an operative position, a closing lever engageable at one end with the knee of the toggle movable to cause said toggle to close said switch member, a rotatable crank arm operable to engage and move said closing lever during a relatively small arc of its travel circle to close said switch member, and to then disengage said closing lever, a motor for operating said crank arm, a circuit for said motor, means for automatically deenergizing said motor when said closing lever completes its closing movement, and means for causing said crank arm to be brought to rest after it has rotated through an angle following its disengagement from said closing lever.

3. In a circuit breaker, contact means for opening and closing the circuit, actuating means for said contact means, operating mechanism for closing said contact means comprising a translatable closing lever connected at one end to said actuating means and provided with a roller receiving recess adjacent its free end, a rotatable crank arm provided with a roller adjacent its free end, an arcuate guide for the free end of said closing lever, said crank arm being operable to engage said roller in said recess and translate said closing lever during an arc of its travel circle to effect closing of said switch member and to then disengage said roller from said recess, said guide maintaining the closing lever in engagement with said roller during said arc of the travel circle of said crank arm, and means operable to cause opening of said contacts irrespective of the position of said crank arm.

4. In a circuit breaker, a switch member movable to open and to closed circuit position, actuating means for the switch member including an actuating toggle, means releasably restraining said toggle in operative position, operating means for closing said switch member comprising a translatable closing lever connected at one end to the knee of said actuating toggle and provided with a roller receiving recess adjacent its free end, an arcuate guide for the free end of said closing lever, a rotatable crank arm provided with a roller for engaging said recess, said crank arm being operable to engage said roller in said recess and translate said closing lever from an open position to a closed position during a relatively small arc of the travel circle of the crank to cause said actuating toggle to close said switch member, and to then disengage said roller from said recess. trip means for releasing said restraining means to cause said actuating mech anism to open said switch member irrespective of the position of said crank arm, and means for automatically collapsing said toggle to return said closing lever to open position and means for automatically resetting said toggle restraining means following each opening of said switch member.

5. A latching and tripping mechanism for a circuit breaker having a member releasable to cause opening of the breaker, said mechanism comprising a pivoted latch for normally restraining said releasable member, a latch toggle having an overset position for maintaining said latch in latching position, trip means for collapsing said latch toggle to release said latch and thereby release said releasable member, and spring means interconnecting said latch and latch toggle for resetting said latch and latch toggle following a tripping operation, the point of connection of said spring with said latch and said toggle being so disposed relative to the pivot axis of the latch and relative to the pivot of one of the links of the toggle that the moment arm of the spring is substantially a maximum when the latch is in the released position and is very small when the latch is in its latched position.

6. In a circuit breaker, a switch member movable to open and to close the circuit, actuating means for said switch member including a main toggle engaging said switch member at one end, a pivoted support for the opposite end of said toggle, a releasable pivoted latch for maintaining said pivoted support in a normal position to provide a fixed pivot ior said opposite end of the toggle, a latch toggle which in its overset position maintains said latch in latching position to maintain said support in its normal position, trip means for collapsing said latch toggle to release said latch and said support to cause opening of the circuit, and a single spring means connected to the latch and the latch toggle for resetting said latch and said latch toggle following a tripping operation, said spring means being so disposed that its moment arm with respect to the pivot axis of the latch and also with respect to the fixed pivot oi the latch toggle is very small when the latch is in its latched position and is substantially a maximum when the latch is in released position.

7. In a circuit breaker, contact means, actuating means for said contact means, a support for said actuating means, a trip means operable to cause said actuating means to open said contact means comprising an electromagnetic trip unit, a control circuit for said trip unit, means for removably mounting said trip unit on said support, and separable electrical connecting means carried in part by said support and in part by said trip unit for automatically connecting said trip unit in its control circuit when said unit is mounted on said support, said separable electrical connecting means being separate and independent or said means for removably mounting said trip device on said support.

8. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a translatable closing lever movable substantially in the direction of its length to close said switch member, a rotatable crank arm operable during a relatively small part its travel circle to engage one end or said closing lever and move said end through a substantially arcuate path about the axis of rotation of the crank arm to move said closing lever substantially in the direction 01' its length thereby causing closing of said switch member and to then disengage said closing lever, an electric motor for rotating said crank arm, an energizing circuit for said motor, means operable to open said motor circuit when said closing lever has closed said switch member, and means for causing said crank to be brought to rest after it has rotated through an angle following disengagement thereoi from said closing lever.

9. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means for closing the switch member comprising a translatable closing lever movable substantially in the direction or its length to close said switch member, a rotatable crank arm operable during only a portion 01' its travel circle to engage one end of said closing lever and move said end in a substantially arcuate path about the axis of rotation 01 the crank arm to eiIect closing of said switch member and to then disengage said closing lever, manually operable means for operating said crank arm, and means operable to cause movement of said switch member to open circuit position irrespective of the position 01 crank arm.

10. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means for moving said switch member to closed position comprising a translatable closing lever movable substantially in the direction or its length to close said switch member, said lever being provided with a roller receiving recess ad- Jacent one end, a rotatable crank arm having a roller adjacent its free end or engaging in said recess, said crank arm being operable during only a portion of its travel circle to engage said roller in said recess and move the end oi the lever having the recess in a substantially arctuate path about, the axis of rotation 01 the crank arm to effect closing of said switch member and to then disengage the roller from said recess, and means operable to cause movement of said switch member to open circuit position irrespective of the position 0! said crank arm.

11. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle engageable at one end with said switch member, releasable means normally restraining the other end of said toggle in an operative position, a closing lever engageable at one end with the knee of said toggle, said lever being movable to cause said toggle to close said switch member, a rotatable crank arm operable to engage and move said closing lever during only a portion or its travel circle to close said switch member and to then disengage said closing lever, said crank arm making an angle of not substantially greater than with the direction of movement of the point of the lever which it engages at the start 01' the closing movement of the lever and making an angle substantially greater than 90 with the direction of movement of the point oi the lever which it last engages prior to disengaging said lever.

12. In a circuit breaker, a switch member movable to open and closed circuit position, a toggle for actuating said switch member, releasable means normally restraining one end 01 said toggle in operative position, a translatable closing lever connected at one end to said toggle and having a roller receiving recess adjacent its other end, said closing lever being movable substantially in the direction 01' its length to cause said toggle to close said switch member, a rotatable crank arm having a roller adjacent its free end, said crank arm being operable during only a portion oi its travel circle to engage said roller in said recess and move the end of the lever having the recess in a substantially arcuate path about the axis of rotation of the crank arm to effect closing of said switch member and to then disengage said roller from said recess.

13. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle operable to move said switch member to closed circuit position, releasable means normally restraining one end of said toggle in an operative position, a closing lever engageable with the knee of said toggle for moving said toggle to cause closing oi said switch member, and a rotatable crank arm operable during a portion 01' its travel circle to engage and move said closing lever to cause closing oi said switch member and to then disengage said lever, said crank arm making an angle of less than 90 with the direction of movement of the point the closing lever which it engages at the start of the closing movement of the lever and making an angle substantially greater than 90 with the direction 0! movement of the point of the closing lever which it last engages prior to disengaging said lever.

14. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle movable to close said switch member, releasable means normally restraining one end of said toggle in an operative position, a closing lever engageable at one end with the knee of said toggle and movable to cause said toggle to close said switch member, a rotatable crank arm operable during only a portion of its travel circle to engage and move said closing lever to eil'ect closing of said switch member and to then disengage said lever, and a motor for operating said crank arm, said crank arm making an angle not substantially greater than 90 with the direction oi! movement of the point of the closing lever which it engages at the start 01 the closing movement of the lever and making an angle substantially greater than 90 with the direction of movement of the point of the closing lever which it last engages prior to disengaging said lever.

15. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle movable to clou said switch member, releasable means normally restraining one end of 'said toggle in an operative position, a closing lever engageable at one end with the knee of said toggle and movable to cause said toggle to close said switch member, a rotatable crank arm operable during only a portion of its travel circle to engage and move said closing lever to effect closing 01' said switch member and to then disengage the lever, a motor for rotating said crank arm, an energizing circuit for said motor, and means operable to open said motor energizing circuit at the completion of the closing movement of the switch member, said crank arm making an angle not substantially greater than 90 with the direction of movement of the point of the closing lever which it engages at the start of the closing movement of the lever and making an angle substantially greater than 90 with thQ- dll80tl0n 01' movement of the point of the closing lever which it last engages prior to disengaging said lever.

16. In a circuit breaker, a switch member movable to open and closed circuit position, operating means comprising a toggle engageable at one end with said switch member, releasable means normally restraining the other end of said toggle in an operative position, a translatable closing lever connected to the knee of said toggle and movable to cause said toggle to close said switch member, a rotatable crank arm operable during a part only 01' its travel circle to engage said lever adjacent one end and move said end in a substantially arcuate path about the axis of rotation oi the crank arm to eii'ect closing of the switch member and to then disengage said closing lever, a motor for operating said crank arm, an energizing circuit for said motor, and means operable to open said motor energizing circuit when said switch member has completed its closing movement.

17. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle movable to close said switch member, releasable means normally restraining one end of said toggle in an operative position, a closing lever engageable at one end with the knee of said toggle and movable to cause said toggle to close said switch member, a rotatable crank arm operable during only a portion of its travel circle to engage and move said closing lever to eiIect closing of said switch member and to then disengage said lever, a motor for operating said crank arm, said motor being capable of continuing its rotation after said switch member reaches closed position without affecting the position of the toggle or closing lever, said crank arm making an angle not substantially greater than with the direction oi. movement of the point of the closing lever which it engages at the start of the closing movement of the lever and making an angle substantially greater than 90 with the direction of movement of the point of the closing lever which it last engages prior to disengaging said lever.

18. In a circuit breaker, a switch member movable to open and to closed circuit position, operating means comprising a toggle engageable at one end with said switch member, releasable means normally restraining the other end of the toggle in an operative position, a closing lever engageable at one end with the knee of the toggle movable to cause said toggle to close said switch member, a rotatable crank arm operable to en ge one end of said closing lever and move said closing lever during a relatively small arc, less than degrees, of the travel circle of said crank arm to effect closing oi said switch member and to then disengage said closing lever, a motor for operating said crank arm, a circuit for energizing said motor, and means for automatically opening said motor circuit when said closing lever has closed said switch member, said crank arm making an angle of less than 90 with the direction oi movement of the point of the closing lever which it engages at the start oi. the closing movement oi the lever and making an angle substantially greater than 90 with the direction of movement of the point of the closing lever which it last en ages prior to disengaging said lever.

19. In a circuit breaker, a switch member movable to open and to closed circuit position, op-

erating means comprising a toggle engageable at one end with said switch member, releasable means normally restraining the other end of the toggle in an operative position, a closing lever enga eable at one end with the knee oi the toegle movable to cause said toggle to close said switch member, a rotatable crank arm operable during a relatively small are, less than oi the travel circle thereof to engage and move the other end oi the closing lever in a substantially arcuate path about the axis 0! rotation of the crank arm to eiiect closing of the switch mem-- bet and to then disengage said closing lever, and manually operable means for rotating said crank arm.

TURE LINDB'I'ROM. 

